Motion Illusions

How Many Black Dots?

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Scintillating-Grid-12-Black-Dots

How many black dots can you spot in this version of the scintillating grid illusion?

There are 12, but your brain will not let you see them all at once!

Scintillating-Grid-12-Black-Dots

About the The Scintillating Grid Illusion

The scintillating grid illusion is also known as the “scintillating checkerboard illusion” and it is a variation of the Hermann grid illusion.

The scintillating grid illusion is caused by the way the visual system processes the edges of the lines forming the grid, creating the appearance of movement in the illusion.

Scintillating-Grid-New
From Wikimedia Commons


Table of Contents

How does the Scintillating Grid Illusion work?

The Scintillating Grid Illusion is an optical illusion in which a grid of light gray or white lines on a dark background appears to flicker or “scintillate.” The effect is most pronounced when the observer is looking directly at the intersection of the lines, and it is caused by the way the visual system processes the edges of the lines. The illusion is often used to demonstrate the neural processes that underlie visual perception, and it is related to other optical illusions such as the Hermann grid illusion and the Mach bands illusion.

The Scintillating Grid Illusion is believed to work by the way the brain processes the edges of the lines in the grid. The visual system is sensitive to the contrast between light and dark areas, and the edges of the lines in the grid create a high contrast between the light lines and the dark background. This high contrast causes the visual system to enhance the edges, creating the illusion of flickering or scintillating.

It’s also thought that the mechanism behind this illusion is related to the way the visual system deals with the ambiguous edges of the lines. In the intersection of the lines, the brain receives information that is not clear, and it tries to fill in the missing information by creating the illusion of movement.

Additionally, the illusion is more pronounced when the observer is looking directly at the intersection of the lines, as opposed to looking at the lines themselves. This is likely due to the fact that the visual system is more sensitive to edges that are oriented perpendicular to the line of sight.

Versions of the Scintillating Grid Illusion

The following is an alternate versions of the Scintillating Grid Illusion:



Hermann-Grid_illusion


Hermann-Grid_illusion




Illusions like the Scintillating Grid Illusion

Color illusions work by exploiting the way that the human visual system processes color and light. The human eye is able to detect light in the visible spectrum, which consists of different wavelengths of light that correspond to different colors. The brain then interprets this information to create our perception of color. However, the way the brain perceives color is not always a perfect representation of the physical reality.

There are several factors that can influence the way that the visual system processes color and light, which can lead to the perception of illusions. These factors include:

Contrast: The way that the brain perceives color can be influenced by the surrounding colors and patterns. High-contrast borders around an area of color can cause the brain to interpret the color as spreading or “bleeding” beyond the actual boundaries of the object.

Lighting conditions: The way that the brain perceives color can also be affected by the lighting conditions. For example, when an object is viewed in bright light, the eye’s color receptors may become fatigued, causing the brain to perceive colors differently than they actually are.

Color adaptation: The brain adapts to the colors that we see over time, which can influence the perception of color. For example, if an individual looks at a red object for an extended period of time, the brain will adapt to the red, and when that person looks at a white object, it will appear to have a pinkish hue.

Color constancy: The brain is able to adjust the perception of color based on the context in which it is viewed. This can create illusions where the same color appears to be different depending on the surrounding colors.

Shape use: Some illusions like the Hermann grid illusion or the Cafe Wall illusion, use specific patterns and shapes to manipulate the perception of color and shape.

Some related illusions include the following:

The Neon Color Spreading illusion refers to the visual phenomenon where an area of color appears to spread or “bleed” beyond its intended boundaries.

Neon Color Spreading
From Wikimedia Commons

The Bezold Effect: This illusion is created by placing two or more colors next to each other, and the way they appear to change when they are close to one another.  

Bezold_Effect
from Wikimedia Commons

The Mach Band Illusion: This illusion is created by the way the brain perceives edges of an object. When an object has a gradient of color, the edges of the object appear to be darker or lighter than they actually are.

Mach Bands Animation
From Wikimedia Commons

The Hermann Grid Illusion: This illusion is created by the way the brain perceives intersections of lines. When the intersections of a grid of lines are viewed, small gray dots appear at the intersections, even though they are not actually there.



Hermann Grid

The Watercolor Illusion: This illusion is created by the way the brain perceives edges of an object. When an object is surrounded by a colored halo, the object appears to have a different color than it actually does.

Watercolor Illusion


The Chevreul Illusion: This illusion is created by the way the brain perceives edges of an object. When the edges of an object are surrounded by a contrasting color, the edges appear to be a different color than they actually are. Chevreul’s illusion is similar to Mach bands, but they work in different ways. Chevreul’s illusion is an effect on the perception of hue, while Mach bands is an effect on the perception of brightness.


Chevreul-Mach-bands-wiki.jpg


The Ishihara Illusion: This illusion is created by the way the brain perceives colors. When a color is surrounded by a contrasting color, the brain perceives the color to be different than it actually is.

Ishihara Plate 9
From Wikimedia Commons

The flash lag illusion is a visual illusion that is based on the perception of the temporal relationship between a moving object and a flash of light. The illusion occurs when a moving object is followed by a sudden flash of light, and the perceived location of the flash appears to be behind the actual location of the object.

Flash Lag
From Wikimedia Commons

The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion


Discovery of the Scintillating Grid Illusion

It was first described by an American psychologist, Edward H. Adelson in 1995.

Edward Adelson is a professor of vision science at the Massachusetts Institute of Technology (MIT) and a member of the MIT Media Lab.

He is known for his research in the field of computer vision, particularly his work on the perception of lightness and the “checkerboard illusion.”

He is also a recipient of the David Marr Prize, which is given by the International Association for Computer Vision to “outstanding young investigators” in the field of computer vision.

References and Resources

Check out our complete list of illusions.

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Moiré Pattern Illusion

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Moiré pattern illusion

The Moiré pattern illusion is an optical illusion that is created by the interaction of two or more superimposed patterns. A Moiré pattern is formed when two regular patterns, such as grids or dots, are overlaid on each other, creating an interference pattern.

The Moiré pattern appears as a set of wavy lines or shapes that are different from the original patterns.

Moiré pattern illusion
Moiré Pattern Illusion
From Wikimedia Commons


Table of Contents


How does the Moiré Pattern Illusion work?

The Moiré pattern is created by the brain as it tries to interpret the overlapping patterns.

The brain tries to interpret the overlapping patterns as one pattern, but the regularity of the original patterns causes interference, resulting in the perception of a new, distorted pattern.

Moiré patterns can be observed in various settings, such as in textiles, screens and print media, and they are also used in science and technology, such as in measuring equipment and in the study of fluid dynamics.

Moiré pattern illusions are often used to study the neural mechanisms of visual perception, particularly the way that the brain processes and interprets complex visual information.

They can also be used to create interesting visual effects in art and design.

Version of the Moiré Pattern Illusion

The following is an alternate version of the Moiré Pattern Illusion:



Moiré pattern illusion





Illusions like the Moiré Pattern Illusion

The Moiré Pattern illusion is a type of motion illusion, also known as a kinetic illusion. It is created by the interaction of straight lines that are arranged in a specific pattern, which creates the illusion of a spiral pattern moving inwards.

This illusion is a good example of how our visual system can be easily deceived by the combination of different visual cues, and how it can interpret them in a way that doesn’t match the physical reality. The Fraser spiral illusion is particularly interesting for scientists and researchers because it helps to understand how the brain processes and interprets visual information, specifically how it perceives motion and organizes visual information.

Some similar illusions are below:

The rotating snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect
A Version of Rotating Snakes


The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion



The Hermann Grid Illusion in which the intersections of a white grid on a black background appear to be gray, even though they are actually the same color as the background.

Hermann-Grid Illusion


The Zöllner Illusion, in which parallel lines appear to be tilted or bent when intersected by diagonal lines.

Zöllner illusion


The barber pole illusion is an optical illusion that is characterized by the appearance of a spiral pattern on a vertically striped pole.


The Bezold Effect: This illusion is created by placing two or more colors next to each other, and the way they appear to change when they are close to one another.  

Bezold_Effect
from Wikimedia Commons


The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion


Discovery of the Moiré Pattern Illusion

The Moiré pattern is a well-known optical illusion, and it is unlikely that any one person can be credited with its discovery.

The phenomenon of Moiré patterns has been observed and studied for centuries by scientists, mathematicians, and artists. Moiré patterns were first described mathematically by Swiss mathematician Johann Heinrich Lambert in 1760s.

The term “Moiré” comes from the French word for “watered” or “shaded”, referring to the wavy patterns that are created by the interference of the superimposed patterns.

Additionally, scientists and researchers have made contributions to the study of Moiré patterns by documenting the effects of different variables on the illusion, such as the shape, size, and spacing of the patterns, and the distance and angle of the viewer.

References and Resources

Check out our complete list of illusions.


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Fraser Spiral Illusion

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Frazier Spiral Black and Orange and Red

The Fraser spiral illusion is an optical illusion that is characterized by the appearance of a spiral pattern made up of concentric circles.

The illusion is created by the placement of a series of curved lines that appear to be spiraling inwards, with the center of the spiral appearing to be moving.

However, the lines are actually straight and parallel to each other. . This illusion is often used to study the neural mechanisms of visual perception and how the brain interprets and organizes visual information. The Fraser spiral illusion is an example of how the visual system can be deceived by the perception of apparent motion in static images.

Frazier Spiral Black and Orange and Red
Fraser Spiral Illusion


Table of Contents

How does the Fraser Spiral Illusion work?

The Fraser spiral illusion works by exploiting the way the brain processes and interprets visual information, particularly the perception of motion.

The illusion is created by a series of straight lines that are arranged in a way that appears to be spiraling inwards.

brain interprets the curved lines as if they are spiraling because of the way the lines are arranged and the way they are perceived as moving.

The human brain’s visual system is wired to perceive patterns and shapes that are familiar to it, and is sensitive to changes in the orientation of lines and edges.

The Fraser Spiral Illusion takes advantage of this by providing a pattern where the straight lines are arranged at different angles, creating a sense of movement.

The illusion is reinforced by the gradual change in the direction of the lines, which creates the impression of a spiral pattern.

Additionally, the brain uses the context of the surrounding lines to interpret the direction of the lines, and the brain interprets the lines as spiraling inwards because of the way the lines are positioned in relation to each other.

The illusion is not just limited to the spiral pattern, but also the center of the spiral appears to be moving, this is caused by the way the brain interprets the relative position of the lines in relation to each other.

Version of the Fraser Spiral Illusion

The following are some alternate versions of the Fraser Spiral Illusion:



Frazier Spiral Black and White and Blue



Frazier Spiral Black and White



Frazier Spiral rainbow



Frazier Spiral Red and Purple



Frazier Spiral Blue and Yellow



Illusions like the Fraser Spiral Illusion

The Fraser spiral illusion is a type of motion illusion, also known as a kinetic illusion. It is created by the interaction of straight lines that are arranged in a specific pattern, which creates the illusion of a spiral pattern moving inwards.

This illusion is a good example of how our visual system can be easily deceived by the combination of different visual cues, and how it can interpret them in a way that doesn’t match the physical reality. The Fraser spiral illusion is particularly interesting for scientists and researchers because it helps to understand how the brain processes and interprets visual information, specifically how it perceives motion and organizes visual information.

Some similar illusions are below:

The rotating snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect
A Version of Rotating Snakes


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.

Moiré_pattern
From Wikimedia Commons

The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion



The Hermann Grid Illusion in which the intersections of a white grid on a black background appear to be gray, even though they are actually the same color as the background.

Hermann-Grid Illusion


The Zöllner Illusion, in which parallel lines appear to be tilted or bent when intersected by diagonal lines.

Zöllner illusion


The barber pole illusion is an optical illusion that is characterized by the appearance of a spiral pattern on a vertically striped pole.


The Bezold Effect: This illusion is created by placing two or more colors next to each other, and the way they appear to change when they are close to one another.  

Bezold_Effect
from Wikimedia Commons


The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion


Discovery of the Fraser Spiral Illusion

The illusion is named after the psychologist James Fraser who first described this illusion in 1908.

Sir James Fraser was a British psychologist who made important contributions to the field of perception and cognitive psychology.

He was born in 1854 and died in 1941. He is best known for his work on visual perception, particularly for his description of the Fraser spiral illusion in 1908.

Fraser studied at Cambridge University and later became a professor of psychology at University College London.

He made a significant contribution to the study of visual perception, and his work on the Fraser spiral illusion helped to establish the field of cognitive psychology, which focuses on how the brain processes and interprets information.

He also made contributions to other areas of psychology such as memory and attention. He was knighted in 1935 for his services to psychology.

References and Resources

Check out our complete list of illusions and this cool variant of the Fraser Spiral Illusion: Concentric Circles Illusion

Barberpole Illusion

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Baberpole Illusion

The barber pole illusion is an optical illusion that is characterized by the appearance of a spiral pattern on a vertically striped pole.

The illusion is created by the interaction of the contrasting colors of the stripes with the motion of the pole, which can make it appear to be moving in a spiral pattern.

he barber pole illusion is often used to study the neural mechanisms of visual perception, particularly the way that our brains process and interpret motion.

Baberpole Illusion
Barberpole Illusion


Table of Contents

How does the Barberpole Illusion work?

The barber pole illusion works by exploiting the way that our brains process and interpret visual information, particularly motion.

The vertical stripes of the barber pole create a sense of motion as the pole rotates, and the contrasting colors of the stripes can create the illusion of a spiral pattern.

This is because our visual system is sensitive to both color and motion, and the combination of these two factors creates the illusion of a spiral pattern.

Additionally, the way the stripes are arranged on the pole can also contribute to the illusion of a spiral pattern, as the brain interprets the relative position of the stripes as they move around the pole.

Version of the Barberpole Illusion

The following is an alternate version of the Baberpole Illusion:



barberpole illusion
From Wikimedia Commons



Illusions like the Barberpole Illusion

The Barberpole illusion is a motion illusion, also known as a kinetic illusion. It is created by the interaction of color and motion, specifically the rotation of the pole with the vertical stripes on it, which creates the illusion of a spiral pattern moving up and down the pole.

This illusion is a good example of how our visual system can be easily deceived by the combination of different visual cues, and how it can interpret them in a way that doesn’t match the physical reality.

Some similar illusions are below:

The rotating snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect
A Version of Rotating Snakes


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.

Moiré_pattern
From Wikimedia Commons

The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion



The Hermann Grid Illusion in which the intersections of a white grid on a black background appear to be gray, even though they are actually the same color as the background.

Hermann-Grid Illusion


The Zöllner Illusion, in which parallel lines appear to be tilted or bent when intersected by diagonal lines.

Zöllner illusion


The Fraser Spiral Illusion, in which a pattern of short, curved lines appears to form a spiral.

Fraser-spiral-illusion.

The Bezold Effect: This illusion is created by placing two or more colors next to each other, and the way they appear to change when they are close to one another.  

Bezold_Effect
From Wikimedia Commons


The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion


Discovery of the Barberpole Illusion

The Barberpole illusion is a well-known optical illusion that has been studied for many years, so it is unlikely that any one person can be credited with its discovery.

The illusion has been known and described by various scientists and researchers over the years, and it is likely that it has been observed and described by many people independently.

However, several researchers and scientists have made contributions to the study of the Barberpole illusion by documenting the effects of different variables on the illusion, such as the color, size, and rotation speed of the stripes, and the distance and angle of the viewer.

Barber poles have been used for centuries, with the earliest known examples dating back to ancient civilizations.

Barber poles have been used in various forms across different cultures, but the traditional red and white striped poles that are commonly associated with barbershops today have their origins in medieval Europe.

Barber poles were used as a sign to indicate the location of a barbershop, and the red and white stripes were chosen as a symbol of the two main services provided by barbers of the time: bloodletting (which was often indicated by the red stripe) and hair cutting (indicated by the white stripe).

The first rotating barber poles were made in the late 1800s and early 1900s, which was when the Barberpole illusion started to be observed.

References and Resources

Check out our complete list of illusions.

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Checkerboard Bulge

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Checkerboard Bulge

I love these cool checkerboard bulge illusions.

There are a few illusion types at play in here, but the effect is most similar to that of the famous Cafe Wall illusion.

Checkerboard Bulge
Checkboard Bulge

A Few Other Checkerboard Bulge Examples

Checkerboard Bulge



Checkerboard Bulge


checkerboard bulge

checkerboard bulge

Table of Contents for the Cafe Wall (Base for Checkerboard Bulge)


How does the Café Wall Illusion work?

The Cafe Wall Illusion works by creating the illusion of depth and perspective through the interaction of parallel lines and the edges of the squares in the checkerboard pattern. The parallel lines in the pattern create the illusion of rows of bricks that appear to be slanted, even though they are actually straight. The edges of the squares in the pattern also play a role in creating the illusion by creating the perception of shadows and highlights on the “bricks.”

The way the lines and edges interact with each other creates a conflict in the brain between the perception of the lines as straight and the perception of the rows as tilted. The brain resolves this conflict by interpreting the rows as slanted, which creates the illusion of depth and perspective. Additionally, the alternating light and dark rows also contribute to the illusion, as the brain perceives them as different depths of the wall.

The illusion is also affected by the viewer’s distance from the image, as the perceived tilt of the lines changes as the viewer moves closer or farther away. This is because the angle of the lines changes relative to the viewer’s perspective, which changes the way the lines and edges interact with each other.

Versions of the Café Wall Illusion

The following are some alternate versions of the Café Wall Illusion:

Cafe-Wall-Illusion-Building-Wikimedia-Source
From Wikimedia Commons
Cafe-Wall-Illusion-Original-Cafe-with-Richard-Gregory-Wikimedia-Source.
Original Cafe with-discoverer Richard Gregory from Wikimedia Commons
Cafe-Wall-Illusion-Blue-and-Black
Cafe-Wall-Illusion-Orange-and-Black


Cafe-Wall-Illusion-Red-and-Blue.
Cafe-Wall-Illusion-Purple-Yellow-and-Black


Illusions like the Café Wall Illusion

The following are some illusions similar to the Café Wall Illusion.

The Rotating Snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.

Moiré_pattern
From Wikimedia Commons


The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion


The Zöllner illusion is a visual illusion in which parallel lines appear to be angled due to the presence of intersecting lines.

The illusion is often used to study the brain’s perception of shape and spatial relationships. It is considered one of the most powerful and striking examples of a geometrical-optical illusion. The perception of the illusion can be explained by the brain’s tendency to group lines together based on their similarity in direction and spacing, which can lead to an overestimation of the angle between the parallel lines.

Zöllner illusion


The Müller-Lyer illusion: This illusion involves lines with arrowheads at the ends, which can make a line appear longer or shorter depending on the direction of the arrowheads.

müller-lyer illusion



The Poggendorff illusion is a visual illusion in which the brain perceives a diagonal line as being interrupted by an object, even though the line is actually continuous. The illusion is created by the misalignment of two parallel lines that are intersected by a third line at a certain angle.

Poggendorff illusion transparent gray bar



The Orbison illusion is an illusion of movement that is created when stationary, parallel lines are placed on a background of radiating lines. The parallel lines appear to be moving in the direction of the radiating lines, even though they are actually stationary. This illusion is thought to be caused by the interaction between the parallel lines and the radiating lines, which creates an illusion of movement in the brain.

Orbison Illusion



The Wundt illusion is an optical illusion produces an inversed effect compared to the Hering Illusion. The vertical lines are both straight, but they may look as if they are curved inwards.

Wundt Illusion



Discovery of the Café Wall Illusion

The Cafe Wall Illusion was first described by the British psychologist Richard Gregory in the 1970s.

Gregory was a cognitive psychologist who made significant contributions to the field of visual perception, including the discovery of the Cafe Wall Illusion.

He published his findings on the illusion in the journal “Nature” in 1973. Gregory was also known for his work on the perception of illusory contours and the perception of the Necker cube, which is another famous optical illusion.

References and Resources

Check out our complete list of illusions.

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Shake Your Head Illusion

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Shake-Your-Head-Panda.jpg

The shake your head illusion is a type of visual illusion that is created when an image is viewed while the head is rapidly oscillating

Shake your head to see the hidden image….

Shake-Your-Head-Panda.jpg
Panda

What Is the Shake Your Head Illusion?

The shake your head illusion is a type of visual illusion that is created when an image is viewed while the head is rapidly oscillating. The illusion is characterized by the appearance of movement in a static image, as if the image is shaking or vibrating. This illusion is also known as the “headshake illusion” or “oscillopsia”.

The illusion is created by the rapid movement of the head, which causes the eyes to experience a temporary loss of visual stabilization, or “vestibulo-ocular reflex”, this makes the image appear to shake or vibrate. This illusion is similar to the effect seen when viewing an image through a moving train or car window, or when an image is displayed on a screen that is out of sync with the refresh rate.

The shake your head illusion is often used in research to study visual perception, as well as in the diagnosis and treatment of certain neurological conditions such as vestibular disorders or migraines.

How Does The Shake Your Head Illusion Work?

The shake your head illusion is a type of kinetic illusion. A kinetic illusion is a type of visual illusion that is characterized by the appearance of movement in a static image. This movement can be perceived in different ways, such as the image appearing to shake, vibrate, rotate, or change in size or shape. Kinetic illusions are caused by the movement of the viewer or the image, and they can occur in different forms, such as in optical illusions, visual hallucinations, or afterimages.

The shake your head illusion specifically falls under the category of “vestibular illusion”, which is a type of kinetic illusion caused by the movement of the viewer, in this case by shaking the head. It relies on the way the brain processes visual information, specifically the vestibulo-ocular reflex, which is the reflex that allows the eyes to stay stable and follow an object in motion, to create the illusion of movement.

In summary, the shake your head illusion, also known as the “headshake illusion” or “oscillopsia”, is a type of kinetic illusion specifically a vestibular illusion that is caused by the movement of the viewer, in this case shaking the head, and relies on the way the brain processes visual information.

Versions of the Shake Your Head Illusion

The following are some other examples of the Shake Your Head Illusion:

Shake-Your-Head-Optical-Illusion "Optical Illusion"
“Optical Illusion”


Shake-Your-Head-Optical-Illusion "Cool Dog"
Cool Dog



Illusions like the Shake Your Head Illusion

The following are some illusions that are related to the Autokinetic effect.


The Rotating Snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.

Moiré_pattern
From Wikimedia Commons

The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion



The Hermann Grid Illusion, in which the intersections of a white grid on a black background appear to be gray, even though they are actually the same color as the background.

Hermann-Grid Illusion


The Zöllner Illusion, in which parallel lines appear to be tilted or bent when intersected by diagonal lines.

Zöllner illusion


The Fraser Spiral Illusion, in which a pattern of short, curved lines appears to form a spiral.

Fraser-spiral-illusion.



The Hering Illusion, in which two straight lines appear to be curved due to the presence of surrounding lines.

Hering Illusion


The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion



These illusions are usually caused by the way our eyes process visual information and the way the brain interprets it. They can also be caused by the interaction of different visual elements, such as lines and angles, in the image. They are often used in research on visual perception and the neural basis of perception.

Discovery of the Shake Your Head Illusion


The “Shake Your Head Illusion” was discovered by a team of researchers led by Dr. Tomohiro Ishihara at the University of Tokyo in Japan. The study was published in the journal “Current Biology” in June 2021.


References and Resources

Check out our complete list of illusions.


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Fun Circles Illusory Motion

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Illusory Motion Circles

With Illusory motion, static image appears to be moving due to the interaction of color contrasts, shapes, and position.

Illusory Motion Circles


Table of Contents


How does Illusory Motion work?

Illusory motion, also known as motion illusion, is the perception of movement in a static image or pattern.

This can occur when the brain is presented with a series of static images that change over time, or when certain visual patterns are arranged in a specific way.

The brain interprets these as if they are moving, even though the image or pattern itself is not actually moving.

There are several theories that try to explain the underlying mechanisms of illusory motion.

One theory is that it is a result of neural adaptation, where the visual system becomes adapted to certain stimuli and continues to respond as if they were present even after they are removed.

Another theory is that it is a result of the brain’s tendency to perceive patterns and to fill in missing information, known as Gestalt principles.

Versions of Illusory Motion

The following are some other examples of Illusory Motion





Illusory-Motion



Illusory-Motion




Illusory-Motion





Illusory-Motion








Illusory Motion




Illusory Motion










Peripheral drift illusion
From Wikimedia Commons


peripheral-drift-illusion-giving-a-throbbing-effect
From Wikimedia Commons



Peripheral_drift_illusion_blue-and-orange-wormhole


Illusions like Illusory Motion

The following are some illusions related to Illusory Motion

In Peripheral Drift illusions, the image or pattern appears to move or drift, even though it is actually stationary. This movement is caused by the brain’s attempt to interpret the image or pattern, which is often complex or ambiguous. The movement can be in any direction, such as horizontally, vertically, or diagonally.

Peripheral drift illusion jelly bean
From Wikimedia Commons

The rotating snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect
A Version of Rotating Snakes


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.


Moiré_pattern
From Wikimedia Commons


The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion



The Hermann Grid Illusion, in which the intersections of a white grid on a black background appear to be gray, even though they are actually the same color as the background.

Hermann-Grid Illusion


The Zöllner Illusion, in which parallel lines appear to be tilted or bent when intersected by diagonal lines.

Zöllner illusion


The Fraser Spiral Illusion, in which a pattern of short, curved lines appears to form a spiral.

Fraser-spiral-illusion.




The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion



These illusions are usually caused by the way our eyes process visual information and the way the brain interprets it. They can also be caused by the interaction of different visual elements, such as lines and angles, in the image. They are often used in research on visual perception and the neural basis of perception.


Discovery of the Illusory Motion

It is not clear who first discovered illusory motion. Some credit Aristotle in approximately 350 BC.

But these type of illusions have been observed and studied by various researchers over time, and many studies have contributed to the understanding of the phenomenon.

For example, peripheral drift illusions have been observed since the early 20th century and have been studied by various researchers in the field of visual perception, including scientists, psychologists, and neuroscientists.

Some of the early studies on peripheral drift illusions were conducted by the German physiologist Ernst Mach in the late 19th century, and later by the German psychologist Max Wertheimer in the early 20th century.

In the 20th century, several scientists and researchers have made significant contributions to the understanding of peripheral drift illusions and the underlying neural mechanisms, such as the American psychologist J.J. Gibson, the American neuroscientist David Hubel, and the British neuroscientist Melvyn Goodale.


References and Resources

Check out our complete list of illusions.

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Motion Aftereffect – Starry Night

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Van_Gogh_-_Starry_Night_-_Google_Art_Project.

The Motion Aftereffect (also known as the Waterfall Illusion) is a visual illusion experienced after viewing a moving visual stimulus, and then fixating on a stationary stimulus.

Here is an awesome example of this effect

Fixate on the moving image below for 30 seconds, then shift your gaze to The Starry Night and watch Vincent Van Gogh’s masterpiece come to life.


Van_Gogh_-_Starry_Night_-_Google_Art_Project.


Table of Contents


How does the Motion Aftereffect work?

The motion aftereffect (MAE) is a visual illusion that occurs when one looks at a moving visual stimulus for an extended period of time, and then looks at a still object. The still object will appear to be moving in the opposite direction of the original stimulus. T

his effect is thought to occur because neurons in the visual system become adapted to the motion of the initial stimulus, and then continue to fire as if the motion were still present even when the stimulus is removed.

This causes the perceived motion of the still object.

MAE can occur with various type of motion such as rotation, translation, expansion and contraction.

Versions of the Motion Aftereffect

The following are some other examples of the Waterfall Illusion

Motion Aftereffect
Focus on the image for several seconds, then shift your gaze to another surface, you should experience the motion aftereffect



Waterfall Illusion
Waterfall Illusion
If you focus on the falling water for several seconds, then shift your gaze to a still object, that object will appear to shift upward in the opposite direction of the waterfall




Illusions like the Motion Aftereffect

The following are some illusions that are related to Motion Aftereffect

Motion-induced blindness (MIB) is an optical illusion that occurs when a stationary pattern or image is presented in the presence of a moving pattern or image. The stationary pattern or image appears to disappear or fade, even though it is still present, this phenomenon is called motion-induced blindness.

Motion-Induced-Blindness-Spinning-Table
Focus on the in the center of the table and the different objects disappear and reappear.


Motion-Induced-Blindness-spinning-squares-blue-dot-yellow-dot
Focus on the center dot and and the other dots disappear and reappear

Troxler’s fading, also known as Troxler’s effect, is a phenomenon in which a stationary visual stimulus eventually disappears from perception, even though it is still present in the visual field.

This occurs because the human visual system adapts to constant stimuli and eventually stops responding to them.

Lilac-Chaser_Troxlers Fading
From Wikimedia Commons
After staring at the cross for several seconds, the dots fade away


Troxler-Fading
From Wikimedia Commons
After staring at the cross for several seconds, colors fade away


Toxler-Fading-Blue-Circle-Red-Dot
From Wikimedia Commons
After staring at the dot for several seconds, the colored ring fades away


The Phi phenomenon is the illusion of movement created by the rapid succession of static images or light sources.

It is the perceptual phenomenon that explains how the human brain perceives motion when presented with a sequence of still images or light sources that are displayed in rapid succession.

Magni-phi-phenomonon.
From Wikimedia Commons



The Rotating Snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.

Moiré_pattern
From Wikimedia Commons

The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion



The Hermann Grid Illusion, in which the intersections of a white grid on a black background appear to be gray, even though they are actually the same color as the background.

Hermann-Grid Illusion


The Zöllner Illusion, in which parallel lines appear to be tilted or bent when intersected by diagonal lines.

Zöllner illusion


The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion




Discovery of the Motion Aftereffect

Some believe that The Motion Aftereffect effect was first observed and noted by Aristotle in approximately 350 BC.

More recently, the motion aftereffect was described by German physicist and physician Johann Christoph Friedrich von Schiller in 1812.

He observed that after looking at a rotating wheel for a period of time, stationary objects appeared to rotate in the opposite direction. He called this phenomenon the “spinning wheel illusion.”

However, the phenomenon was independently discovered by several other researchers in the 19th century including Peter Mark Roget and Charles Wheatstone.

About The Starry Night

The Starry Night is an oil painting created by Vincent van Gogh in 1889.

The painting depicts the view from the east-facing window of his asylum room at Saint-Paul-de-Mausole, just before sunrise, with the addition of an idealized village.

The work is one of the most recognizable in the history of Western culture and is considered to be among Van Gogh’s finest works.

The painting is characterized by its swirling, dynamic sky and the cypress tree at the center of the composition, which is a symbol of eternity and the unrelenting power of nature.

It is currently housed at the Museum of Modern Art in New York City.

References and Resources

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Cool Blue Cafe Wall Illusion

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Cool Cafe Wall Illusion in Blue and Black

This cool blue Cafe Wall Illusion was created by Victoria Skye.

The parallel lines appear to be tilted or slanted, even though they are actually straight. For some, the effect in this version is even more pronounced than in the original Cafe Wall Illusion.


Cool Cafe Wall Illusion in Blue and Black


Table of Contents


How does the Café Wall Illusion work?

The Cafe Wall Illusion works by creating the illusion of depth and perspective through the interaction of parallel lines and the edges of the squares in the checkerboard pattern. The parallel lines in the pattern create the illusion of rows of bricks that appear to be slanted, even though they are actually straight. The edges of the squares in the pattern also play a role in creating the illusion by creating the perception of shadows and highlights on the “bricks.”

The way the lines and edges interact with each other creates a conflict in the brain between the perception of the lines as straight and the perception of the rows as tilted. The brain resolves this conflict by interpreting the rows as slanted, which creates the illusion of depth and perspective. Additionally, the alternating light and dark rows also contribute to the illusion, as the brain perceives them as different depths of the wall.

The illusion is also affected by the viewer’s distance from the image, as the perceived tilt of the lines changes as the viewer moves closer or farther away. This is because the angle of the lines changes relative to the viewer’s perspective, which changes the way the lines and edges interact with each other.

Versions of the Café Wall Illusion

The following are some alternate versions of the Café Wall Illusion:

Cafe-Wall-Illusion-Building-Wikimedia-Source
From Wikimedia Commons
Cafe-Wall-Illusion-Original-Cafe-with-Richard-Gregory-Wikimedia-Source.
Original Cafe with-discoverer Richard Gregory from Wikimedia Commons
Cafe Wall Illusion


Cafe-Wall-Illusion-Orange-and-Black


Cafe-Wall-Illusion-Red-and-Blue.


Illusions like the Café Wall Illusion

The following are some illusions similar to the Café Wall Illusion.

The Rotating Snakes is a peripheral drift illusion that consists of a grid of shapes, with some of them appearing to be rotating or undulating. The illusion is created by the interaction of the shapes with the neural processing of the visual system.

Rotating Snakes Autokinetic effect


The Moiré pattern illusion: This illusion is created by superimposing two similar patterns on top of each other, such as a grid of lines or circles. The resulting pattern appears to be moving or changing.

Moiré_pattern
From Wikimedia Commons


The Scintillating Grid Illusion, in which a grid of black and white squares appears to pulsate or “breathe” when viewed from the periphery of the image.

Simultaneous Contrast Illusion


The Zöllner illusion is a visual illusion in which parallel lines appear to be angled due to the presence of intersecting lines.

The illusion is often used to study the brain’s perception of shape and spatial relationships. It is considered one of the most powerful and striking examples of a geometrical-optical illusion. The perception of the illusion can be explained by the brain’s tendency to group lines together based on their similarity in direction and spacing, which can lead to an overestimation of the angle between the parallel lines.

Zöllner illusion


The Müller-Lyer illusion: This illusion involves lines with arrowheads at the ends, which can make a line appear longer or shorter depending on the direction of the arrowheads.

müller-lyer illusion



The Poggendorff illusion is a visual illusion in which the brain perceives a diagonal line as being interrupted by an object, even though the line is actually continuous. The illusion is created by the misalignment of two parallel lines that are intersected by a third line at a certain angle.

Poggendorff illusion transparent gray bar



The Orbison illusion is an illusion of movement that is created when stationary, parallel lines are placed on a background of radiating lines. The parallel lines appear to be moving in the direction of the radiating lines, even though they are actually stationary. This illusion is thought to be caused by the interaction between the parallel lines and the radiating lines, which creates an illusion of movement in the brain.

Orbison Illusion



The Wundt illusion is an optical illusion produces an inversed effect compared to the Hering Illusion. The vertical lines are both straight, but they may look as if they are curved inwards.

Wundt Illusion



Discovery of the Café Wall Illusion

The Cafe Wall Illusion was first described by the British psychologist Richard Gregory in the 1970s.

Gregory was a cognitive psychologist who made significant contributions to the field of visual perception, including the discovery of the Cafe Wall Illusion.

He published his findings on the illusion in the journal “Nature” in 1973. Gregory was also known for his work on the perception of illusory contours and the perception of the Necker cube, which is another famous optical illusion.

References and Resources

Check out our complete list of illusions.

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Scintillating Grid Illusion

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Scintillating-Grid-New

The scintillating grid illusion is also known as the “scintillating checkerboard illusion” and it is a variation of the Hermann grid illusion.

The scintillating grid illusion is caused by the way the visual system processes the edges of the lines forming the grid, creating the appearance of movement in the illusion.

Scintillating-Grid-New
From Wikimedia Commons


Table of Contents

How does the Scintillating Grid Illusion work?

The Scintillating Grid Illusion is an optical illusion in which a grid of light gray or white lines on a dark background appears to flicker or “scintillate.” The effect is most pronounced when the observer is looking directly at the intersection of the lines, and it is caused by the way the visual system processes the edges of the lines. The illusion is often used to demonstrate the neural processes that underlie visual perception, and it is related to other optical illusions such as the Hermann grid illusion and the Mach bands illusion.

The Scintillating Grid Illusion is believed to work by the way the brain processes the edges of the lines in the grid. The visual system is sensitive to the contrast between light and dark areas, and the edges of the lines in the grid create a high contrast between the light lines and the dark background. This high contrast causes the visual system to enhance the edges, creating the illusion of flickering or scintillating.

It’s also thought that the mechanism behind this illusion is related to the way the visual system deals with the ambiguous edges of the lines. In the intersection of the lines, the brain receives information that is not clear, and it tries to fill in the missing information by creating the illusion of movement.

Additionally, the illusion is more pronounced when the observer is looking directly at the intersection of the lines, as opposed to looking at the lines themselves. This is likely due to the fact that the visual system is more sensitive to edges that are oriented perpendicular to the line of sight.

Versions of the Scintillating Grid Illusion

The following is an alternate versions of the Scintillating Grid Illusion:



Hermann-Grid_illusion


Hermann-Grid_illusion




Illusions like the Scintillating Grid Illusion

Color illusions work by exploiting the way that the human visual system processes color and light. The human eye is able to detect light in the visible spectrum, which consists of different wavelengths of light that correspond to different colors. The brain then interprets this information to create our perception of color. However, the way the brain perceives color is not always a perfect representation of the physical reality.

There are several factors that can influence the way that the visual system processes color and light, which can lead to the perception of illusions. These factors include:

Contrast: The way that the brain perceives color can be influenced by the surrounding colors and patterns. High-contrast borders around an area of color can cause the brain to interpret the color as spreading or “bleeding” beyond the actual boundaries of the object.

Lighting conditions: The way that the brain perceives color can also be affected by the lighting conditions. For example, when an object is viewed in bright light, the eye’s color receptors may become fatigued, causing the brain to perceive colors differently than they actually are.

Color adaptation: The brain adapts to the colors that we see over time, which can influence the perception of color. For example, if an individual looks at a red object for an extended period of time, the brain will adapt to the red, and when that person looks at a white object, it will appear to have a pinkish hue.

Color constancy: The brain is able to adjust the perception of color based on the context in which it is viewed. This can create illusions where the same color appears to be different depending on the surrounding colors.

Shape use: Some illusions like the Hermann grid illusion or the Cafe Wall illusion, use specific patterns and shapes to manipulate the perception of color and shape.

Some related illusions include the following:

The Neon Color Spreading illusion refers to the visual phenomenon where an area of color appears to spread or “bleed” beyond its intended boundaries.

Neon Color Spreading
From Wikimedia Commons

The Bezold Effect: This illusion is created by placing two or more colors next to each other, and the way they appear to change when they are close to one another.  

Bezold_Effect
from Wikimedia Commons

The Mach Band Illusion: This illusion is created by the way the brain perceives edges of an object. When an object has a gradient of color, the edges of the object appear to be darker or lighter than they actually are.

Mach Bands Animation
From Wikimedia Commons

The Hermann Grid Illusion: This illusion is created by the way the brain perceives intersections of lines. When the intersections of a grid of lines are viewed, small gray dots appear at the intersections, even though they are not actually there.



Hermann Grid

The Watercolor Illusion: This illusion is created by the way the brain perceives edges of an object. When an object is surrounded by a colored halo, the object appears to have a different color than it actually does.

Watercolor Illusion


The Chevreul Illusion: This illusion is created by the way the brain perceives edges of an object. When the edges of an object are surrounded by a contrasting color, the edges appear to be a different color than they actually are. Chevreul’s illusion is similar to Mach bands, but they work in different ways. Chevreul’s illusion is an effect on the perception of hue, while Mach bands is an effect on the perception of brightness.


Chevreul-Mach-bands-wiki.jpg


The Ishihara Illusion: This illusion is created by the way the brain perceives colors. When a color is surrounded by a contrasting color, the brain perceives the color to be different than it actually is.

Ishihara Plate 9
From Wikimedia Commons

The flash lag illusion is a visual illusion that is based on the perception of the temporal relationship between a moving object and a flash of light. The illusion occurs when a moving object is followed by a sudden flash of light, and the perceived location of the flash appears to be behind the actual location of the object.

Flash Lag
From Wikimedia Commons

The Café Wall Illusion is a visual illusion that is created by a grid of alternating light and dark horizontal and vertical lines. The lines appear to be bent or tilted, even though they are actually straight.

Cafe Wall Illusion


Discovery of the Scintillating Grid Illusion

It was first described by an American psychologist, Edward H. Adelson in 1995.

Edward Adelson is a professor of vision science at the Massachusetts Institute of Technology (MIT) and a member of the MIT Media Lab.

He is known for his research in the field of computer vision, particularly his work on the perception of lightness and the “checkerboard illusion.”

He is also a recipient of the David Marr Prize, which is given by the International Association for Computer Vision to “outstanding young investigators” in the field of computer vision.

References and Resources

Check out our complete list of illusions and this related Boxes Aren’t Moving Illusion and this heart shaped version: Scintillating Heart Illusion